Research highlights

Sedentary cyst- and root-knot nematodes belong to the most devastating pests in agriculture worldwide. These parasites withdraw all nutrients required for their development and reproduction from sophisticated feeding sites induced in root tissue. Those structures are responsible for the massive redirection of the required nutrients in the host tissues what results in growth impairment as well as yield reduction causing huge economic losses. Once these pests have established in the field, sedentary plant-parasitic nematodes are difficult to deal with. Physical sanitation is costly and time-intensive, chemical control measures usually affect non-target organisms.

Additionally, many nematode species are polyphagous, being able to parasitize roots of many different plant species. The host plant symptoms are mostly unspecific and therefore farmers often overlook or underestimate the infestation level in the field. Accordingly, it is necessary to prevent or at least reduce the spread of plant-parasitic nematodes as much as possible following the standard hygiene practices. Furthermore, the use of resistant/tolerant plants or non-host plants during crop rotation is of utmost importance.

As an alternative, Krzysztof Wieczorek and his colleagues from the Institute of Plant Protection at BOKU investigate a root-endophytic fungus as an alternative biological control against sedentary plant-parasitic nematodes. The aims of the project are to understand the interactions between the fungus, host plant and the nematodes on a molecular level. The obtained results could help in the development of a biological and sustainable method for nematode control. This project is financed by the FWF and obtained results will be published 2020/2021 in international peer-reviewed journals.